表面技术
錶麵技術
표면기술
SURFACE TECHNOLOGY
2015年
2期
105-109
,共5页
孙丽华%李正勇%刘立伟%刘淑艳%孙丽荣%于广杰%季淑杰
孫麗華%李正勇%劉立偉%劉淑豔%孫麗榮%于廣傑%季淑傑
손려화%리정용%류립위%류숙염%손려영%우엄걸%계숙걸
弹药内表面喷涂%高压无气喷涂%装药环境适应性%裂纹
彈藥內錶麵噴塗%高壓無氣噴塗%裝藥環境適應性%裂紋
탄약내표면분도%고압무기분도%장약배경괄응성%렬문
spraying on the internal surface of ammunition%high-pressure airless spraying%environment adaptability of ammu-nition charge%crack
目的:改进弹药内表面喷涂方式及涂料种类,解决弹药装药环境适应性高低温贮存裂纹疵病的问题。方法采用高压无气喷涂技术进行弹体内表面喷漆,替代原有的空气喷涂。探讨涂料压力、涂料黏度、喷嘴移动速度等因素对涂层质量的影响,通过正交试验确定最佳工艺参数。采用直线加速器检测不同漆膜厚度的弹体装药环境适应性裂纹疵病情况。结果涂料压力为65 kg/cm2,涂料黏度为30 s,喷嘴移动速度为50 Hz,喷嘴孔径分别为0.51,0.71 mm时,弹药内表面漆膜具有较好的外观质量,漆膜厚度及附着力满足要求。膜层厚度为180μm的弹药经高、低温贮存试验,未出现裂纹。结论应用实践证明,高压无气喷涂工艺技术用于弹药卧式自动内表面涂装可行,具有一定的行业推广价值。
目的:改進彈藥內錶麵噴塗方式及塗料種類,解決彈藥裝藥環境適應性高低溫貯存裂紋疵病的問題。方法採用高壓無氣噴塗技術進行彈體內錶麵噴漆,替代原有的空氣噴塗。探討塗料壓力、塗料黏度、噴嘴移動速度等因素對塗層質量的影響,通過正交試驗確定最佳工藝參數。採用直線加速器檢測不同漆膜厚度的彈體裝藥環境適應性裂紋疵病情況。結果塗料壓力為65 kg/cm2,塗料黏度為30 s,噴嘴移動速度為50 Hz,噴嘴孔徑分彆為0.51,0.71 mm時,彈藥內錶麵漆膜具有較好的外觀質量,漆膜厚度及附著力滿足要求。膜層厚度為180μm的彈藥經高、低溫貯存試驗,未齣現裂紋。結論應用實踐證明,高壓無氣噴塗工藝技術用于彈藥臥式自動內錶麵塗裝可行,具有一定的行業推廣價值。
목적:개진탄약내표면분도방식급도료충류,해결탄약장약배경괄응성고저온저존렬문자병적문제。방법채용고압무기분도기술진행탄체내표면분칠,체대원유적공기분도。탐토도료압력、도료점도、분취이동속도등인소대도층질량적영향,통과정교시험학정최가공예삼수。채용직선가속기검측불동칠막후도적탄체장약배경괄응성렬문자병정황。결과도료압력위65 kg/cm2,도료점도위30 s,분취이동속도위50 Hz,분취공경분별위0.51,0.71 mm시,탄약내표면칠막구유교호적외관질량,칠막후도급부착력만족요구。막층후도위180μm적탄약경고、저온저존시험,미출현렬문。결론응용실천증명,고압무기분도공예기술용우탄약와식자동내표면도장가행,구유일정적행업추엄개치。
Objective To improve the spraying mode and paint variety of internal surface of ammunition, solve the problems of high environment adaptability of ammunition charge and crack flaw due to low-temperature storage. Methods A high pressure air-less spray technique was adopted to carry out spray painting of internal surface of ammunition, to substitute the original air spray mode. The effects of factors such as paint pressure, paint viscosity, nozzle movement speed on the coating quality were discussed, and the optimal process parameters were determined by orthogonal experiments. The situation of the environment adaptability of am-munition charge and the crack flaw of paint film with different thickness were tested by linear accelerator. Results The paint film of inner surface of ammunition had good appearance quality, the thickness of paint film and the adhesion met the requirements when the paint pressure was 65 kg/cm2 , the paint viscosity was 30 s, the nozzle movement speed was 50 Hz, the nozzle diameters were 0. 51 and 0. 71 mm, respectively. The ammunition with a paint film of 180μm thickness did not crack after the high-and low-tem-perature storage tests. Conclusion It was proved by application that the high-pressure airless spray technique used for horizontal automatic inner surface spraying of ammunition was feasible and worthy of spreading in industry.